src/third_party/llvm-project/clang/test/CXX/expr/expr.post/expr.static.cast/p3-p4-0x.cpp - cobalt - Git at Google

 // RUN: %clang_cc1 -std=c++11 -fsyntax-only -verify %s


 // p3
 // A glvalue of type "cv1 T1" can be cast to type "rvalue reference to
 // cv2 T2" if "cv2 T2" is reference-compatible with "cv1 T1" (8.5.3).
 // p4
 // Otherwise, an expression e can be explicitly converted to a type T using a
 // static_cast of the form static_cast<T>(e) if the declaration T t(e); is
 // well-formed, for some invented temporary variable t (8.5). [...]
 struct A { };
 struct B : A { };

 struct C { explicit operator A&&(); };
 struct D { operator B(); };

 template<typename T> T& lvalue();
 template<typename T> T&& xvalue();
 template <typename T> T prvalue();

 void test(A &a, B &b) {
   A &&ar0 = static_cast<A&&>(prvalue<A>());
   A &&ar1 = static_cast<A&&>(prvalue<B>());
   A &&ar2 = static_cast<A&&>(lvalue<C>());
   A &&ar3 = static_cast<A&&>(xvalue<C>());
   A &&ar4 = static_cast<A&&>(prvalue<C>());
   A &&ar5 = static_cast<A&&>(lvalue<D>());
   A &&ar6 = static_cast<A&&>(xvalue<D>());
   A &&ar7 = static_cast<A&&>(prvalue<D>());

   A &&ar8 = static_cast<A&&>(prvalue<const A>()); // expected-error {{binding value of type 'const A' to reference to type 'A' drops 'const' qualifier}}
   A &&ar9 = static_cast<A&&>(lvalue<const A>()); // expected-error {{cannot cast from lvalue of type 'const A'}}
   A &&ar10 = static_cast<A&&>(xvalue<const A>()); // expected-error {{cannot cast from rvalue of type 'const A'}}

   const A &&ar11 = static_cast<const A&&>(prvalue<A>());
   const A &&ar12 = static_cast<const A&&>(prvalue<B>());
   const A &&ar13 = static_cast<const A&&>(lvalue<C>());
   const A &&ar14 = static_cast<const A&&>(xvalue<C>());
   const A &&ar15 = static_cast<const A&&>(prvalue<C>());
   const A &&ar16 = static_cast<const A&&>(lvalue<D>());

   const A &&ar17 = static_cast<const A&&>(prvalue<A const volatile>()); // expected-error {{binding value of type 'const volatile A' to reference to type 'const A' drops 'volatile' qualifier}}
 }
	// RUN: %clang_cc1 -std=c++11 -fsyntax-only -verify %s


	// p3
	// A glvalue of type "cv1 T1" can be cast to type "rvalue reference to
	// cv2 T2" if "cv2 T2" is reference-compatible with "cv1 T1" (8.5.3).
	// p4
	// Otherwise, an expression e can be explicitly converted to a type T using a
	// static_cast of the form static_cast<T>(e) if the declaration T t(e); is
	// well-formed, for some invented temporary variable t (8.5). [...]
	struct A { };
	struct B : A { };

	struct C { explicit operator A&&(); };
	struct D { operator B(); };

	template<typename T> T& lvalue();
	template<typename T> T&& xvalue();
	template <typename T> T prvalue();

	void test(A &a, B &b) {
	A &&ar0 = static_cast<A&&>(prvalue<A>());
	A &&ar1 = static_cast<A&&>(prvalue<B>());
	A &&ar2 = static_cast<A&&>(lvalue<C>());
	A &&ar3 = static_cast<A&&>(xvalue<C>());
	A &&ar4 = static_cast<A&&>(prvalue<C>());
	A &&ar5 = static_cast<A&&>(lvalue<D>());
	A &&ar6 = static_cast<A&&>(xvalue<D>());
	A &&ar7 = static_cast<A&&>(prvalue<D>());

	A &&ar8 = static_cast<A&&>(prvalue<const A>()); // expected-error {{binding value of type 'const A' to reference to type 'A' drops 'const' qualifier}}
	A &&ar9 = static_cast<A&&>(lvalue<const A>()); // expected-error {{cannot cast from lvalue of type 'const A'}}
	A &&ar10 = static_cast<A&&>(xvalue<const A>()); // expected-error {{cannot cast from rvalue of type 'const A'}}

	const A &&ar11 = static_cast<const A&&>(prvalue<A>());
	const A &&ar12 = static_cast<const A&&>(prvalue<B>());
	const A &&ar13 = static_cast<const A&&>(lvalue<C>());
	const A &&ar14 = static_cast<const A&&>(xvalue<C>());
	const A &&ar15 = static_cast<const A&&>(prvalue<C>());
	const A &&ar16 = static_cast<const A&&>(lvalue<D>());

	const A &&ar17 = static_cast<const A&&>(prvalue<A const volatile>()); // expected-error {{binding value of type 'const volatile A' to reference to type 'const A' drops 'volatile' qualifier}}
	}